考虑层间热阻的热防护系统气动加热的鉴定

IF 5 2区 工程技术 Q1 ENGINEERING, MECHANICAL
Rafał Brociek , Edyta Hetmaniok , Christian Napoli , Giacomo Capizzi , Damian Słota
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引用次数: 0

摘要

本文在对可重复使用运载火箭热防护系统进行温度测量的基础上,对该运载火箭的气动热加热进行了重构。所讨论的综合热防护系统由三层组成。描述该问题的数学模型考虑了材料参数对温度的依赖以及层间接触区发生的热阻,这是该方法的新颖之处。对于直接问题,采用有限差分法的隐式格式。接下来,通过使用直接问题的解,创建了Tikhonov泛函,它描述了当前近似解的误差。而对于确定反问题的解,则使用改进并适应于Tikhonov泛函的Levenberg-Marquardt方法。文中给出了该问题的数学模型和求解方法,并通过实例说明了其准确性和稳定性。为了更好地检验解法的正确性,在算例中采用了不同的参数值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of aerothermal heating for thermal protection systems taking into account the thermal resistance between layers

In this paper the aerothermal heating of a reusable launch vehicle is reconstructed on the basis of temperature measurements taken in the thermal protection system of this vehicle. The discussed integrated thermal protection system is composed of three layers. Mathematical model, describing the problem, takes into account the dependence on temperature of the material parameters as well as the thermal resistances occurring in the contact zones of the layers, which is a novelty in the proposed approach. For solving the direct problem, the implicit scheme of the finite difference method is applied. Next, by using the solution of the direct problem, the Tikhonov functional is created, which describes the error of the current approximate solution. Whereas for determining the solution of the inverse problem the Levenberg-Marquardt method, modified and adapted to the Tikhonov functional, is used. The paper presents the mathematical model of the problem and the method of solution together with the selected examples illustrating its exactness and stability. In order to better examination of the solution method some various values of parameters are taken in the demonstrated examples.

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来源期刊
CiteScore
10.30
自引率
13.50%
发文量
1319
审稿时长
41 days
期刊介绍: International Journal of Heat and Mass Transfer is the vehicle for the exchange of basic ideas in heat and mass transfer between research workers and engineers throughout the world. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding of transfer processes and their application to engineering problems. Topics include: -New methods of measuring and/or correlating transport-property data -Energy engineering -Environmental applications of heat and/or mass transfer
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